In complex systems, flexibility and adaptability to changes are crucial to the systems’ dynamic stability and evolution. Such resilience requires that the system is able to respond to disturbances by self-organizing, which implies a certain level of entropy within the system. Dynamic states (static, cyclical/periodic, complex, and chaotic) reflect this generative capacity, and correlate with the level of entropy. For planning complex cities, we need to develop methods to guide such autonomous progress in an optimal manner. A classical apparatus, cellular automaton (CA), provides such a tool. Applications of CA help us to study temporal dynamics in self-organizing urban systems. By exploring the dynamic states of the model’s dynamics resulti...
Most cellular automata (CA) urban models assume densities to be uniform for all cells. This is not t...
Cellular automata (CA) simulation has become a popular method of exploring the behaviour of all kind...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
In complex systems, flexibility and adaptability to changes are crucial to the systems' dynamic stab...
Modeling complex systems requires to reduce, to organize the system complexity and to describe suita...
Cellular automata (CA) are discrete dynamic systems in which space is tessellated into regular spati...
Cellular automata provide a high-resolution representation of urban spatial dynamics.Consequently th...
Cellular automata provide a high-resolution representation of urban spatial dynamics. Consequently t...
In this paper I will report on the capability of cellular automata (CA) to simulate urban structure ...
Abstract. New developments in computation based on cellular automata (CA), which are finding widespr...
Recent approaches to modeling urban growth use the notion that urban development can be conceived as...
In urban systems modeling, there are many elaborate dynamic models based on intricate decision proce...
International audienceThe structural development of human settlements can be characterized as a comp...
The development of regional urban system still remains one of the main problems during the human rac...
Cellular automata belong to a family of discrete, connectionist techniques being used to investigate...
Most cellular automata (CA) urban models assume densities to be uniform for all cells. This is not t...
Cellular automata (CA) simulation has become a popular method of exploring the behaviour of all kind...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
In complex systems, flexibility and adaptability to changes are crucial to the systems' dynamic stab...
Modeling complex systems requires to reduce, to organize the system complexity and to describe suita...
Cellular automata (CA) are discrete dynamic systems in which space is tessellated into regular spati...
Cellular automata provide a high-resolution representation of urban spatial dynamics.Consequently th...
Cellular automata provide a high-resolution representation of urban spatial dynamics. Consequently t...
In this paper I will report on the capability of cellular automata (CA) to simulate urban structure ...
Abstract. New developments in computation based on cellular automata (CA), which are finding widespr...
Recent approaches to modeling urban growth use the notion that urban development can be conceived as...
In urban systems modeling, there are many elaborate dynamic models based on intricate decision proce...
International audienceThe structural development of human settlements can be characterized as a comp...
The development of regional urban system still remains one of the main problems during the human rac...
Cellular automata belong to a family of discrete, connectionist techniques being used to investigate...
Most cellular automata (CA) urban models assume densities to be uniform for all cells. This is not t...
Cellular automata (CA) simulation has become a popular method of exploring the behaviour of all kind...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...